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T1 - Fullerene based organic solar cells
Moritz Riede is Associate Professor for Soft Functional Nanomaterials in the Department of Physics at the University of Oxford, UK. Before moving to Oxford in 2013, he worked in Germany at the Fraunhofer Institute for Solar Energy Systems ISE and the University of Freiburg as PhD student, and at the Institut für Angewandte Photophysik (IAPP) of Technische Universität Dresden as post-doctoral research and head of a junior research group. His academic research focusses on vacuum deposited organic solar cells, an emerging solar cell technology that has potential for light-weight, cheap, flexible, large area, long-living and efficient solar cells.
Chapter 2 is aimed to introduce researchers whoare planning to work on organic solar cells into this very specialised butalso interdisciplinary field.
Organic Solar Cells Phd Thesis - Nordeste Vendas
The more general properties of organicsemiconductors can be found in many excellent text books and otherreferences and are only summarized briefly in the first part whereasthe second part gives a more comprehensive insight into the importantcharacteristic solar cell parameters and links between them.
However, since a full theoretical understanding of organic solar cells isstill not possible we have tried to improve understanding of device physicsby drawing analogies to inorganic cells using the equivalent circuitdiagram and the ``traditional" interpretation of current voltagecharacteristics.
Theoretical Study of Electron Transfer in Organic Solar Cells.
Annamaria Petrozza was awarded a Master of Science in Electronic Engineering (emphasis on Devices, design and modelling) at Ecole Supèrieure d’Electricité (Paris, France) in 2003 under the T.I.M.E. (Top Industrial Manager in Europe) program. In 2004 she got a Master degree in Electronic Engineering (emphasis on Optoelectronics) at Politecnico of Milan with a thesis carried out at the Cavendish Laboratory of the University of Cambridge (UK) on the optical characterisation of a class of organic semiconductors with a supramolecular architecture for Organic Light Emitting Diodes. The research work was under the supervision of Prof. C. Cacialli and Prof. C. Silva. In 2008 she received her PhD in Physics from the University of Cambridge (UK) with a thesis on the study of optoelectronic processes at organic and hybrid semico nductors interfaces under the supervision of Dr. J.S. Kim and Prof Sir R.H. Friend. From July 2008 to December 2009 she worked as research scientist at the Sharp Laboratories of Europe, Ltd on the development of new market competitive solar cell technologies (Dye Sensitized Solar cells/Colloidal Quantum Dots Sensitized Solar cells). Her main tasks were to establish key needs of PV market, write research proposals to submit to the Sharp Business Group, and design and implement experiments. Since January 2010 she has a Team Leader position at the Center for Nano Science and Technology -IIT@POLIMI. She is in charge of the development of photovoltaic devices and their characterization by time-resolved and cw Photoinduced Absorption Spectroscopy, Time-resolved Photoluminescence and electrical measurements. Her research work mainly aims to shed light on interfacial optoelectronic mechanisms, which are fundamental for the optimization of operational processes, with the goal of improving device efficiency and stability.
Juan Bisquert is a Professor of applied physics at Universitat Jaume I de Castelló, Spain. He is the director of the Institute of Advanced Materials at UJI. He authored 360 peer reviewed papers, and a series of books including Nanostructured Energy Devices (1. Equilibrium Concepts and Kinetics, 2. Foundations of Carrier Transport) and 3. Physics of Solar Cells: Perovskites, Organics, and Photovoltaics Fundamentals (CRC Press). His h-index 75, and is currently a Senior Editor of the Journal of Physical Chemistry Letters. He conducts experimental and theoretical research on materials and devices for production and storage of clean energies. His main topics of interest are materials and processes in perovskite solar cells and solar fuel production. He has developed the application of measurement techniques and physical modeling of nanostructured energy devices, that relate the device operation with the elementary steps that take place at the nanoscale dimension: charge transfer, carrier transport, chemical reaction, etc., especially in the field of impedance spectroscopy, as well as general device models. He has been distinguished in the 2014, 2015, 2016 list of ISI Highly Cited Researchers.
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Ph.D. Thesis: The stability of third generation solar cells …
We also discuss a method solely based on intensity dependent photocurrent/voltage measurements that can be used to estimate the AM1.5 efficiency of solar cells.
Organic Solar Cell Phd Thesis Format - …
Jenny Nelson is a Professor of Physics at Imperial College London, where she has researched novel varieties of material for use in solar cells since 1989. Her current research is focussed on understanding the properties of molecular semiconductor materials and their application to organic solar cells. This work combines fundamental electrical, spectroscopic and structural studies of molecular electronic materials with numerical modelling and device studies, with the aim of optimising the performance of solar cells based on molecular and hybrid materials. Since 2010 she has been working together with the Grantham Institute for Climate Change to explore the mitigation potential of photovoltaic, and other renewable, technologies. She has published over 200 articles in peer reviewed journals, several book chapters and a book on the physics of solar cells. She was awarded the 2009 Institute of Physics Joule Prize and medal and the 2012 Royal Society Armourers and Brasiers Company Prize for her research.
Fullerene based organic solar cells Popescu, L
Plastic solar cells offer the prospect of flexible, lightweight, lower cost of manufacturing, and hopefully an efficient way to produce electricity from sunlight.
polymers for organic solar cells
Since the discovery of photo induced charge transfer from a conjugated polymer to C60, followed by introduction of the bulk heterojunction concept, this material combination has been extensively studied in organic solar cells leading to a power conversion efficiency approaching 6% nowadays.
investigation of organic solar cells, ..
Although significant progress has been made for bulk heterojunction photovoltaic devices, the current efficiency of these solar cells does not guarantee (large scale) commercialization.
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